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Land and Water Conservation: Dealing with Agriculture and Aquaculture Conflicts

  • Velmurugan Ayyam
  • Swarnam Palanivel
  • Sivaperuman Chandrakasan
Chapter

Abstract

The tropical coastal environment has undergone rapid changes in recent times with the introduction of aquaculture to meet the rising demand for fish products and to supply nutritional requirement of growing population. The major concern in these changes is the way that natural habitats have been extensively cleared and converted to shrimp farming and agriculture and in recent times agriculture into aquaculture. This is driven by high demand for aquaculture products in global markets and, together with technological advances, has fuelled rapid expansion. These rapid and generally unplanned changes in the coastal areas have provoked conflicts between agriculture and shrimp farming and further resulted in degradation of land and water. This necessitates integrated management of coastal zone and proper regulations to deal with the conflicts and land use change. This chapter deals with the trend in land use change and its associated problems and approaches to manage agriculture-aquaculture conflicts aimed at combined production and resource conservation in the tropical coastal areas.

Keywords

Alternative aquaculture Integrated fish farming Coastal regulation ICZM 

References

  1. ADB/NACA (1997) Aquaculture sustainability and the environment. Asian Development Bank and Network of Aquaculture Centres in Asia-Pacific, BangkokGoogle Scholar
  2. Bailey C, Pomeroy C (1996) Resource dependency and development options in coastal South-east Asia. Soc Nat Resour 9(1):191–199CrossRefGoogle Scholar
  3. Boyd CE, Hargreaves JA, Clay JW (2002) Codes of practice and conduct for marine shrimp aquaculture. Report prepared under the World Bank, NACA, WWF and FAO Consortium Program on Shrimp Farming and the Environment. p.31Google Scholar
  4. Burford MA, Costanzo SD, Dennison WC, Jackson CJ, Jones AB, McKinnon AD, Preston NP, Trott LA (2003) A synthesis of dominant ecological processes in intensive shrimp ponds and adjacent coastal environments in NE Australia. Mar Pollut Bull 46:1456–1469CrossRefGoogle Scholar
  5. Corredor JE, Morell MJ (1994) Nitrate depuration of secondary sewage effluents in mangrove sediments. Estuaries 17:295–300CrossRefGoogle Scholar
  6. Dempster T, Sanchez-Jerez P (2008) Aquaculture and coastal space management in Europe: an ecological perspective. In: Holmert M, Black K, Duarte CM, Marbà N, Karakassis I (eds) Aquaculture in the ecosystem. Springer, Dordrecht, pp 87–116CrossRefGoogle Scholar
  7. Díaz R, Rabalais NN, Breitburg DL (2012) Agriculture’s impact on aquaculture: hypoxia and eutrophication in marine waters. Organisation for Economic Co-operation and Development. www.oecd.org/tad/sustainableagriculture/49841630.pdf. Accessed 15 Feb 2018
  8. DoF (2003) Fishery statistical yearbook of Bangladesh: 2002–2003. Department of Fisheries, Dhaka, 41ppGoogle Scholar
  9. EJF (2003) Risky business: Vietnamese shrimp aquaculture – impacts and improvements. Environmental Justice Foundation, LondonGoogle Scholar
  10. FAO (1997) Towards sustainable shrimp aquaculture development: implementing the FAO code of conduct for responsible fisheries. Food and Agriculture Organization of the United Nations, RomeGoogle Scholar
  11. FAO (2003) Review of the state of world aquaculture. Food and Agriculture Organization, Rome, 95 ppGoogle Scholar
  12. Fegan DF (1999) Research issues in sustainable coastal shrimp farming: a private sector view. In: Smith PT (ed) Towards sustainable shrimp culture in Thailand and the region, Proceedings of a workshop held at Hat Yai, Songkhla, Thailand. Australian Centre for International Agricultural Research, CanberraGoogle Scholar
  13. GESAMP (2001) Planning and management for sustainable coastal aquaculture development. IMO/FAO/Unesco/WMO/WHO/IAEA/UN/UNEP Joint Group of Experts on the Scientific Aspects of Marine Pollution, RomeGoogle Scholar
  14. Janssen R, Padilla JE (1999) Preservation or conversion? Valuation and evaluation of a mangrove forest in the Philippines. Environ Resour Econ 14(3):297–331CrossRefGoogle Scholar
  15. Kagoo EI, Rajalakshmi N (2002) Environmental and social conflicts of aquaculture. J Soc Econ Dev 4(1):13–26Google Scholar
  16. Lal R, Blum WEH, Valentin C, Stewart BA (1997) Methods for assessment of land degradation. CRC, Boca RatonGoogle Scholar
  17. Larsen J, Roney M (2013) Farmed fish production overtakes beef. Earth Policy Institute, Washington, DC. www.earthpolicy.org/plan_b_updates/2013/update114. Accessed on 15 Feb 2018Google Scholar
  18. Lewis RR, Phillips MJ, Clough B, Macintosh DJ (2003) Thematic review on coastal wetland habitats and shrimp aquaculture. Report prepared under the World Bank, NACA, WWF and FAO Consortium Program on Shrimp Farming and the Environment. 81 pp.Google Scholar
  19. Limsuwan CS, Chanratchakool P (1998) Closed recycle system for sustainable black tiger shrimp culture in freshwater areas. Proceedings of the Fifth Asian Fisheries Forum, 11–14 November 1998, Chiang Mai, ThailandGoogle Scholar
  20. Minh LQ, Tuong TP, van Mensvoort ME, Bouma J (1998) Soil and water table management effects on aluminum dynamics in an acid sulphate soil in Vietnam. Agric Ecosyst Environ 68(3):255–262CrossRefGoogle Scholar
  21. Naylor RL, Goldburg RJ, Mooney H, Beveridge M, Clay J, Folke C, Kautsky N, Lubchenco J, Primavera J, Williams M (1998) Ecology: nature’s subsidies to shrimp and salmon farming. Science 282(5390):883–884CrossRefGoogle Scholar
  22. Nickerson DJ (1999) Trade-offs of mangrove area development in the Philippines. Ecol Econ 28:279–298CrossRefGoogle Scholar
  23. Oldeman LR, Hakkeling RTA, Sombroek WG (1992) World map of the status of human-induced soil degradation, an explanatory note. ISRIC, WageningenGoogle Scholar
  24. Patil PG, Krishnan M (1997) The Kandaleru shrimp farming industry and its impact on the rural economy. Agric Econ Res Rev 10(2):293–308Google Scholar
  25. Phillips MJ, Boyd C, Edwards P (2001) Systems approach to aquaculture management. Aquaculture in the third millennium. NACA/FAO, BangkokGoogle Scholar
  26. Rivera-Monroy VH, Torres L, Bahamon N, Newmark F, Twilley R (1999) The potential use of mangrove forests as nitrogen sinks of shrimp aquaculture pond effluents: the role of denitrification. J World Aquacult Soc 30(1):12–25CrossRefGoogle Scholar
  27. Robertson AI, Phillips MJ (1995) Mangroves as filters of shrimp pond effluents: predictions and biogeochemical research needs. Hydrobiologia 295:311–321CrossRefGoogle Scholar
  28. Sammut J, White I, Melville MD (1996) Acidification of an estuarine tributary in eastern Australia due to drainage of acid sulfate soils. Mar Freshwat Res 47(5):669–684CrossRefGoogle Scholar
  29. Sorensen JC, McCreary ST (1990) Institutional arrangements for management of coastal resources. Coastal Management Publication No. 1, (Rev. ed.) U.S.Nat. Pk. Serv./USAID Series. 194 pGoogle Scholar
  30. Spalding M, Blasco F, Field C (1997) World mangrove atlas. The International Society for Mangrove Ecosystems, OkinawaGoogle Scholar
  31. Szuster B, Molle F, Flaherty M, Srijantr T (2003) Socio-economic and environmental implications of inland shrimp farming in the Chao Phraya Delta. In: Molle F, Srijantr T (eds) Perspectives on social and agricultural change in the Chao Phraya Delta. White Lotus Press, Bangkok, pp 177–194Google Scholar
  32. UNEP (1992) World atlas of desertification. United Nations Environment Programme, Edward Arnold, LondonGoogle Scholar
  33. UNEP (1994) Land degradation in south Asia: its severity, causes and effects upon the People. INDP/UNEP/FAO. World Soil Resources Report 78, FAO, Rome, ItalyGoogle Scholar
  34. Velmurugan A, Swarnam TP, Lal R (2015) Effect of land shaping on soil properties and crop yield in tsunami inundated coastal soils of Southern Andaman Island. Agric Ecosyst Environ 206:1–9CrossRefGoogle Scholar
  35. Walters BB (2003) People and mangroves in the Philippines: fifty years of coastal environmental change. Environ Conserv 30(3):293–303CrossRefGoogle Scholar
  36. Wilson BP, White I, Melville MD (1999) Floodplain hydrology, acid discharge and change in water quality associated with a drained acid sulfate soil. Mar Freshwat Res 50(2):149–157CrossRefGoogle Scholar

Copyright information

© Springer Nature Singapore Pte Ltd. 2019

Authors and Affiliations

  • Velmurugan Ayyam
    • 1
  • Swarnam Palanivel
    • 1
  • Sivaperuman Chandrakasan
    • 2
  1. 1.ICAR-Central Island Agricultural Research InstitutePort BlairIndia
  2. 2.Zoological Survey of India – ANRCPort BlairIndia

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